CN102141293A - Integral air conditioner - Google Patents

Abstract

The invention discloses an integral air conditioner, which comprises an indoor panel, a guide vane machine case, an evaporator, an indoor fan, a condenser, an outdoor fan, a compressor and a chassis. A guide vane consists of a plurality of sub-guide vanes, and different sub-guide vanes guide the air to different directions at the same moment. Different indoor areas may receive a temperature-adjusted air stream at the same time, and with the increase in the angle of supplying air, an air supply area of the air conditioner at the same time is increased and the adjustment of the indoor temperature is accelerated. Meanwhile, a flow rate and a flow velocity of the air stream of an air exhaust in each direction may be weakened, so an air output in use of the air conditioner is more flexible, the total air output volume is not reduced, and the comfort degree of a user is improved.

Description

Integral air conditioner

Technical field

The present invention relates to the technical field of window air conditioner, be a kind of a plurality of sub-wind blades that adopted specifically, can be at synchronization simultaneously to blowing towards different directions, thus air-conditioner air supply areas at a time enlarged, make the softer integral air conditioner of air-supply.

Background technology

Usually, air-conditioner is to freeze or heat for indoor environment, and the machine of the indoor environment of Creating Comfort is divided into integral air conditioner and Saperated air conditioner haply thus.

Though integral air conditioner is identical on function with detachable air conditioner, but integral air conditioner is provided with the parts of refrigeration, heat radiation in same casing, through wallsly be arranged on metope or be arranged on the window, window air conditioner is modal integral air conditioner, and detachable air conditioner is provided with refrigerating plant on indoor set, be provided with heat radiation and compression set on off-premises station, indoor set utilizes the refrigerant conduit to be connected with off-premises station.

Fig. 1 is the STRUCTURE DECOMPOSITION figure of the integral air conditioner of prior art.

As shown in Figure 1, existing window air conditioner is by the cabinet 2 that forms appearance; The chassis 3 of parts is installed; Be arranged at the indoor panel 4 of indoor; Indoor panel 4 downsides are formed with the air inlet 4a that air is drawn into the air-conditioner inner space; Its upside forms the air after the air-conditioner internal regulation is discharged into indoor exhaust outlet 4b; The inboard of indoor panel 4 sets gradually evaporimeter 6; Indoor fan 7 and air guiding device 8 (8a, 8b, 8c); Air guiding device 8 comprises the air guide plate 8a of installation room internal fan; Be mounted with baffle plate 8b in air guide plate 8a front; Have on the baffle plate 8b and will be directed to the through hole of indoor fan 7 by evaporimeter 6 flow air, be installed in the place ahead, baffle plate 8b upside and air guide plate 8a upper end, the wind scooper 8c of the exhaust outlet 4b on the guiding air flow indoor panel.Air guide plate 8a is divided into indoor section and outdoor section with window air conditioner, has cut off the circulation between room air and the outdoor air.The outdoor section of air guide plate 8a back is provided with fan electromotor 14; Guide bracket 10; Outdoor fan 11, condenser 12, compressor 16 and have into, the outdoor panel (not shown) of exhaust outlet; It is outer and extend certain distance, junction chamber internal fan 7 and outdoor fan 11 respectively that design has gathering on the chassis 3, the axial rotary rightabout of discharging the drip tray motor 14 of the condensed water that evaporimeter flows down stretches out casing.Compressor 16 and motor 14 runnings when inserting power supply, the compressed machine of refrigerant 16 compression backs by condenser 12, expansion valve (not shown) thereby, get back to compressor behind the evaporimeter 6 and finish circulation, running along with fan electromotor 14, indoor fan 7 and outdoor fan 11 begin to rotate, room air enters air conditioner by the air inlet 4a of indoor panel 4, carry out heat exchange with evaporimeter 6, become cold air after, flow back to indoor by the exhaust outlet 4b of indoor panel 4; Outdoor air enters the outdoor section of air-conditioner by the air-inlet grille of outdoor panel, becomes hot-air and be discharged in the outside atmosphere environment outside the air-conditioner by outdoor panel exhaust outlet after outdoor fan 11, condenser 12 carry out heat exchange.

Fig. 2 is the structural representation of another kind of integral air conditioner in the prior art, and Fig. 3 is the structural representation of wind blade in the integral air conditioner in the prior art; Fig. 4 is the structure chart of wind blade in the prior art.

To shown in Figure 4, integral air conditioner comprises as Fig. 2: indoor panel 4, be arranged on the front end of air-conditioner towards the indoor, and be formed with air inlet 4a, exhaust outlet 4b and control part; Cabinet 2 forms the outward appearance of air-conditioner, and holds each parts of air-conditioner, and cabinet inside is divided into indoor part and outside part; Evaporimeter 6 is arranged on the indoor part of integral air conditioner, with room air generation heat exchange; Indoor fan is arranged on the indoor part of cabinet inside, and the guiding air flows through evaporimeter; Condenser is arranged on the outside part, carries out heat exchange with outdoor air; Outdoor fan is arranged on the outside part in the cabinet, is drawn into outdoor air in the cabinet and makes air flow through condenser; Motor is for the rotation of fan provides power; Compressor is with gaseous coolant boil down to liquid refrigerants and order about refrigerant and flow; Chassis 3, be combined to form independently space with above-mentioned cabinet, in above-mentioned exhaust outlet, wind blade is set, wind blade is fixed in the exhaust outlet by rotating shaft 21, and wind blade rotates under the driving of motor, thereby steering current constantly changes the flow direction, makes the air after the variations in temperature blow to indoor bigger scope.The blinker 22 that can rotate up and down around self fixed axis is set on the wind blade, can changes air-flow by blinker and on above-below direction, flow.

But, there is following not enough point in the aforesaid prior art:

In the integral air conditioner of above-mentioned prior art, wind blade guides the orientation decision of the air-out direction of air by one group of blade in rotation process, and wind blade is single at the air-out direction of synchronization, when air-conditioner moves, guide blades towards direction be free air-flow to go out, and other directions do not have air, and the scope of air conditioner air-out is less.And owing to the air-out direction of air-conditioner is controlled by single wind blade, all excessive from the air velocity and the flow that flow out between guide blades, when indoor, cause user's discomfort easily in wind.

Summary of the invention

The technical problem to be solved in the present invention provides a kind of a plurality of sub-wind blades that adopted, can be at synchronization simultaneously to blowing towards different directions, thus enlarge air-conditioner air supply areas at a time, make the softer integral air conditioner of air-supply.

The technical scheme that the present invention takes for the technical problem that exists in the solution known technology is:

Integral air conditioner of the present invention comprises: indoor panel, be arranged on the front end of air-conditioner towards the indoor, and be formed with air inlet, exhaust outlet and control part; Wind blade is arranged in the above-mentioned exhaust outlet, by rotating the flow direction of the row of guiding to indoor air; Cabinet forms the outward appearance of air-conditioner, and holds each parts of air-conditioner, is divided into indoor part and outside part in the cabinet; Evaporimeter is arranged on the indoor part of integral air conditioner, with room air generation heat exchange; Indoor fan is arranged on the indoor part of cabinet inside, and the guiding air flows through evaporimeter; Condenser is arranged on the outside part, carries out heat exchange with outdoor air; Outdoor fan is arranged on the outside part in the cabinet, is drawn into outdoor air in the cabinet and makes air flow through condenser; Fan electromotor is for the rotation of fan provides power; Compressor is arranged on the outside part, with gaseous coolant boil down to liquid refrigerants and order about refrigerant and flow; The chassis is combined to form independently space with above-mentioned cabinet, and wind blade is made of a plurality of sub-wind blades, guides wind into different directions at the sub-wind blade that synchronization is different.

Above-mentioned sub-wind blade comprises wind blade and following wind blade, and upper and lower wind blade is in synchronization left-right rotation in the opposite direction.

The bottom of described upward wind blade and the top of following wind blade are provided with pitch wheel, and upper and lower wind blade rotates in the opposite direction with same rate.

Above-mentioned two gears are external toothing.

The setting blinker that can rotate up and down around self fixed axis respectively on last wind blade and following wind blade.

Advantage and good effect that the present invention has are:

In the integral air conditioner of the present invention, wind blade is made of a plurality of different sub-wind blades, and the air that each sub-wind blade guided flows out direction and has nothing in common with each other.Sub-wind blade can be made of two parts up and down, wind blade rotates towards different directions respectively when air-conditioner turns round synchronously up and down, thereby with the air after the temperature change simultaneously along with the change of guide blades air-out direction constantly is transported to a plurality of directions, especially when the direction of rotation of guide blades up and down, indoor zones of different can receive the air-flow after the temperature adjustment at one time, the angle of air-supply has enlarged, the air supply areas of air-conditioner in the same time is increased, and the adjusting of indoor temperature is also quicker.On the other hand, adopt a plurality of sub-wind blades among the present invention, and the air-out direction of its each wind blade is also inequality, air under the indoor fan effect is assigned in the different wind blades, the flow of the air-flow on each direction and flow velocity all can be weakened, therefore make the air-out of air-conditioner in using softer, and the total amount of air-out do not reduce, improved user's comfort level.

Description of drawings

Fig. 1 is the STRUCTURE DECOMPOSITION figure of the integral air conditioner of prior art;

Fig. 2 is the structural representation of another kind of integral air conditioner in the prior art;

Fig. 3 is the structural representation of wind blade in the integral air conditioner in the prior art;

Fig. 4 is the structure chart of wind blade in the prior art;

Fig. 5 is the structural representation of wind blade in the integral air conditioner of the present invention;

Fig. 6 is the structure chart of wind blade among the present invention.

Critical piece symbol description in the accompanying drawing:

2: cabinet 3: chassis

4: indoor panel 4a: air inlet

4b: exhaust outlet 6: evaporimeter

7: indoor fan 8: air guiding device

8a: air guide plate

8b: baffle plate 8c: wind scooper

10: guide bracket

11: outdoor fan 12: condenser

14: motor 16: compressor

The specific embodiment

It is following that the present invention will be described in detail with reference to drawings and Examples.

Fig. 5 is the structural representation of wind blade in the integral air conditioner of the present invention; Fig. 6 is the structure chart of wind blade among the present invention.

As Fig. 5, shown in Figure 6, in the integral air conditioner of the present invention, indoor panel is arranged on the front end of air-conditioner towards the indoor, be formed with air inlet, exhaust outlet and control part, air-conditioner in the running from air inlet by indoor suction air, thereby will be discharged to the indoor adjustment of finishing once more through heat-exchanged air by exhaust outlet then; Cabinet 2 forms the outward appearance of air-conditioner, and each parts that hold air-conditioner, above-mentioned cabinet forms the space that holds parts such as condenser, outdoor fan 11, fan electromotor 14, compressor 16, chassis 3 in the outside of air-conditioner, the refrigerant of the HTHP after the compressed machine compression flow in the condenser, the generation flow air of rotating outdoor fan flows through the space between condenser fin, and carry out heat exchange with the refrigerant in the condenser, refrigerant temperature in the condenser is reduced, thereby finish the exchange heat of air-conditioner in the outside.Indoor part and outside part are separated by baffle plate at cabinet inside, thereby guarantee the condenser heat exchange in the air conditioner chamber outside and be used for the evaporimeter heat exchange of room air heat exchange independent fully, avoid mobile the influencing each other of air of air-conditioner cabinet inside.The refrigerant flow of evaporimeter and outside is interconnected, the refrigerant intraluminal fluid attitude refrigerant evaporation at evaporimeter is thereby that gaseous state absorbs a large amount of heat, when indoor air enters into inlet channel by air inlet and evaporimeter generation exchange heat, thereby the temperature of air is reduced.

Integral air conditioner of the present invention comprises: indoor panel, be arranged on the front end of air-conditioner towards the indoor, and be formed with air inlet, exhaust outlet and control part; Wind blade is arranged in the above-mentioned exhaust outlet, by rotating the flow direction of the row of guiding to indoor air; Cabinet forms the outward appearance of air-conditioner, and holds each parts of air-conditioner, is divided into indoor part and outside part in the cabinet; Evaporimeter is arranged on the indoor part of integral air conditioner, with room air generation heat exchange; Indoor fan is arranged on the indoor part of cabinet inside, and the guiding air flows through evaporimeter; Condenser is arranged on the outside part, carries out heat exchange with outdoor air; Outdoor fan is arranged on the outside part in the cabinet, is drawn into outdoor air in the cabinet and makes air flow through condenser; Fan electromotor is for the rotation of fan provides power; Compressor is arranged on the outside part, with gaseous coolant boil down to liquid refrigerants and order about refrigerant and flow; The chassis, be combined to form independently space with above-mentioned cabinet, wind blade 20 is made of a plurality of sub-wind blades, the outlet of sub-guide blades has nothing in common with each other towards the direction that is wind-guiding, the rotation direction of sub-guide blades also can be inequality, guide wind into different directions at the sub-wind blade that synchronization is different, wind blade can be discharged into the air after the temperature change indoor a plurality of angular ranges simultaneously, makes indoor zones of different can carry out exchange heat simultaneously.

Above-mentioned sub-wind blade comprises wind blade 20a and following wind blade 20b, and last wind blade is fixed on exhaust outlet 4b top by the rotating shaft 21 that its top is provided with, and the rotating shaft 21 that following wind blade is provided with by its underpart is fixed on the bottom of exhaust outlet; Upper and lower wind blade is in synchronization left-right rotation in the opposite direction, and upper and lower wind blade can corresponding be connected in different drive motors, does not have association between the two, and under the guiding of two drive motors, upper and lower wind blade rotates synchronously.

The top of the bottom of last wind blade 20a and following wind blade 20b is provided with pitch wheel 23, upper and lower wind blade rotates in the opposite direction with same rate, therefore can adopt a drive motors to drive some in the upper and lower wind blade, utilize gear that power is conducted to an other part then, thereby realize the synchronous rotation of upper and lower wind blade.

Two gears are external toothing, are in order to make structure simpler on the one hand, are to guarantee closely cooperating of two gears on the other hand, guarantee the motion uniformity of upper and lower wind blade in rotation.

In the air communication channel of last wind blade and following wind blade, blinker 22 is set respectively, blinker is connected by fixed axis with upper and lower wind blade, and each blinker can self fixed axis be that axle rotates up and down, thereby changes the outflow angle of air in the vertical direction.Blinker can manually be regulated, and equally also can adopt motor-driven.

During the air-conditioner operation, compressor starts running in the outdoor casing, and compression refrigerant flows it in the refrigerant pipe, the refrigerant of this HTHP flow in the condenser of outside, and in condenser, circulate, outdoor fan rotates under the drive of fan electromotor, thereby in cabinet, form negative pressure, outdoor air is by flowing into respectively in the air-inlet grille that is arranged on the cabinet rear portion, carry out exchange heat with the condenser that covers around the air intake, take away the heat that refrigerant has, the fan of fetching water gets rid of the condensed water in the chassis to condenser, make condensed water and condenser carry out exchange heat, thereby make the more heats of refrigerant exchange in the refrigerant pipe.When refrigerant enters into the evaporimeter that is arranged in indoor casing by expansion valve, the heat of the required absorption of refrigerant evaporation that temperature is lower is more, that is to say that the heat that can absorb is more from circular flow is entered the room the air of inner casing inside, therefore increased the overall thermal exchange capacity of air-conditioner.The exchange heat that refrigerant flows through evaporimeter, carried out the indoor is after the gas-liquid separation of fluid reservoir, and then is inhaled into compressor inside, thus beginning refrigerant circulation next time.

In the integral air conditioner of the present invention, wind blade is made of a plurality of different sub-wind blades, and the air that each sub-wind blade guided flows out direction and has nothing in common with each other.Sub-wind blade can be made of two parts up and down, wind blade rotates towards different directions respectively when air-conditioner turns round synchronously up and down, thereby with the air after the temperature change simultaneously along with the change of guide blades air-out direction constantly is transported to a plurality of directions, especially when the direction of rotation of guide blades up and down, indoor zones of different can receive the temperature adjustment air-flow at one time, the angle of air-supply has enlarged, the air supply areas of air-conditioner in the same time is increased, and the adjusting of indoor temperature is also quicker.On the other hand, adopt a plurality of sub-wind blades among the present invention, and the air-out direction of its each wind blade is also inequality, air under the indoor fan effect is assigned in the different wind blades, the flow of the air-flow on each direction and flow velocity all can be weakened, therefore make the air-out of air-conditioner in using softer, and the total amount of air-out do not reduce, improved user's comfort level.

The above, it only is preferred embodiment of the present invention, be not that the present invention is done any pro forma restriction, though the present invention with preferred embodiment openly as above, yet, be not in order to limit the present invention, any those skilled in the art, in not breaking away from the technical solution of the present invention scope, certainly can utilize the technology contents of announcement to make a little change or modification, become the equivalent embodiment of equivalent variations, be the content that does not break away from technical solution of the present invention in every case, according to technical spirit of the present invention to any simple modification that above embodiment did, equivalent variations and modification all belong in the scope of technical solution of the present invention.

Claims (5)

1. integral air conditioner comprises: indoor panel, be arranged on the front end of air-conditioner towards the indoor, and be formed with air inlet, exhaust outlet and control part; Wind blade is arranged in the above-mentioned exhaust outlet, by rotating the flow direction of the row of guiding to indoor air; Cabinet forms the outward appearance of air-conditioner, and holds each parts of air-conditioner, is divided into indoor part and outside part in the cabinet; Evaporimeter is arranged on the indoor part of integral air conditioner, with room air generation heat exchange; Indoor fan is arranged on the indoor part of cabinet inside, and the guiding air flows through evaporimeter; Condenser is arranged on the outside part, carries out heat exchange with outdoor air; Outdoor fan is arranged on the outside part in the cabinet, is drawn into outdoor air in the cabinet and makes air flow through condenser; Fan electromotor is for the rotation of fan provides power; Compressor is arranged on the outside part, with gaseous coolant boil down to liquid refrigerants and order about refrigerant and flow; The chassis is combined to form independently space with above-mentioned cabinet, it is characterized in that: wind blade is made of a plurality of sub-wind blades, guides wind into different directions at the sub-wind blade that synchronization is different.

2. integral air conditioner according to claim 1 is characterized in that: above-mentioned sub-wind blade comprises wind blade and following wind blade, and upper and lower wind blade is in synchronization left-right rotation in the opposite direction.

3. integral air conditioner according to claim 2 is characterized in that: go up the bottom of wind blade and the top of following wind blade pitch wheel is set, upper and lower wind blade rotates in the opposite direction with same rate.

4. integral air conditioner according to claim 3 is characterized in that: above-mentioned two gears are external toothing.

5. according to claim 2 or 3 described integral air conditioners, it is characterized in that: the setting blinker that can in vertical direction, rotate around self fixed axis respectively on last wind blade and following wind blade.

Images